Study was carried out to investigation the yield and number of seed per pod of butter bean variety of KKL-1 in M2 generation. The total yield per plant shows that there was a general increase in the mean value for each treatment in the variety. The mean value in a treated population significantly varies as compared in the control.
Int.J.Curr.Microbiol.App.Sci (2017) 6(5): 1167-1172 International Journal of Current Microbiology and Applied Sciences ISSN: 2319-7706 Volume Number (2017) pp 1167-1172 Journal homepage: http://www.ijcmas.com Original Research Article https://doi.org/10.20546/ijcmas.2017.605.127 Increased Genetic Variability for Total Plant Yield and Seeds per Pod in M2 Generation of Butter Bean (Phaseolus lunatus L) Variety KKL-1 D Suresh1*, S Poonguzhali2, A Kaviarasu1, S Abdul Rahuman2, S Rajangam3 and J John Joel4 Department of Horticulture, Thanthai Roever Institute of Agriculture and Rural Development, Perambalur, India Department of Crop Improvement, Thanthai Roever Institute of Agriculture and Rural Development, Perambalur, India Department of Horticulture, Horticulture College and Research Institute, Periyakulamm, India Department of Plant Breeding and Genetics, TNAU, Coimbatore-3, India *Corresponding author ABSTRACT Keywords Gamma ray, Seed yield, M2 Generation, Butter bean, Genetic variation Article Info Accepted: 12 April 2017 Available Online: 10 May 2017 Study was carried out to investigation the yield and number of seed per pod of butter bean variety of KKL-1 in M2 generation The total yield per plant shows that there was a general increase in the mean value for each treatment in the variety The mean value in a treated population significantly varies as compared in the control The phenotypic and genotypic co- efficient of variation, heritability and genetic advance increased the varieties after the mutagenic treatment, increase in the phenotypic co-efficient of variation and the genetic parameter was high with 10 kR gamma rays treatment in the variety of KKL-1 Butter bean Introduction Induced mutation plays a significant role in the crop improvement of horticultural crops It is an important tool for induction of variation in quantitative and qualitative characters It can be a supplement to conventional breeding methods when it is desired to improve one or two characters in a well adapted variety Much progress has been made in generating superior genotype with favourable attributes through induced mutations It is much more useful in crop where cross incompatibility mechanisms exist Creation of variability in highly self pollinated crops like peas and beans is very difficult by heterosis breeding due to high crossing barrier and poor seed setting Butter beans (Phaselous lunatus L) belong to the family Leguminaceae KKL-1 butter bean is a selection from a local type collected of Vilpatti It is a pole type and bean growing up to a height of 2.42 m The pods are cluster 1167 Int.J.Curr.Microbiol.App.Sci (2017) 6(5): 1167-1172 11.6 cm long and beans are to numbers per pod The pods are green when immature, turning creamy yellow with brownish purple streaks on the surface at maturity The seeds are bold, globular snow white in color with excellent cooking quality The variety is suited for hilly regions of Tamil Nadu with attitude longest from 1200 m to 2200 m above MSL The crop will be ready for first harvest from 100 days after sowing and the harvest continues up to 140 days with a potential yield of 3.47 tonnes of mature pods per hectare in three or four pickings The present investigation is to study the effect of gamma irradiation in KKL-1 in evolving a mutant with some specific for desirable traits Materials and Methods The present investigation was carried out during 2012-13 on the "Studies on induced mutation in butter bean (Phaseolus lunatus L) var KKL-1 through gamma rays at the Department of Vegetable crop, Horticultural College and Research Institute, Tamil Nadu Agricultural University, Coimbatore Field trial was conducted in the poly house and open field at Horticultural Research Station, Kodaikanal, which is geographically situated between 10°24' N latitude and 77°48' E longitude at an altitude of 2225 m above Mean Sea Level The mean minimum and maximum temperature during the study period between 2.5°C and 30°C respectively and the relative humidity was 40 to 100 per cent The soil of the experimental field is loamy silt with a pH of about 5.85 Characters KKL-1 Butter bean Pedigree Selection from a local Organisation of type release HRS, TNAU, Kodaikanal Habit Pole type (2.42 m) Maturity 140 days Pod yield 3.47 tonnes ha-1 Physical mutagen viz gamma rays (ionizing radiation) the gamma treatments were given by using the 1000 curie Cobalt-60 Gamma cell 900, located at the Centre for Plant Breeding and Genetics (CPBG), Tamil Nadu Agricultural University, Coimbatore, where cobalt- 60 serves as source of gamma rays Number of seeds per pod Number of seeds was counted from each five pods selected randomly from the plant Seed yield per plant (g) The seed yield from all the selected plants was recorded at each harvest Total and mean was obtained and expressed as grams per plant Results and Discussion The most desirable character in plant breeding program is considered as yield per plant and numbers of pods per plant its yield component The total yield per plant, show that there was a general increase in the mean value for the treatment in the variety The mean value in the treated population significantly varies as compared to the other treatment (Tables and 2) Yield attributing characters Seed yield per plant the plants exposed 10 kR and kR gamma rays recorded significant increase in seed yield per plant in KKL-1 butter bean, the seed yield per plant ranged from 33.12 g at 15 kR to 36.18 g 10 kR, in the control population the seed yield 34.50 g Whereas, the gamma rays doses of 10 kR had a slight stimulatory effect Number of seed per pod the number of seed per pod was higher in plants treated with 10 kR (7.06) than control (5.66) and thereafter the number of seed per pod was reduced and reached a 1168 Int.J.Curr.Microbiol.App.Sci (2017) 6(5): 1167-1172 minimum of 5.04 at 15 kR The gamma rays doses at 10 kR had a stimulatory effect over the control in increasing the number of seed per pod The present study has indicated that in M2 generation, plant height showed decreasing trend with increase doses of gamma rays The number of seeds per pod, seed yield showed positive change at lower doses and negative change at higher doses The number of seeds pod at kR and control were on par and the number of pod per plant at 10 kR, kR and 15 kR was on part The increase in pod yield in M2 generation in mean values in the M2 generation indicates the elimination of deleterious genes Such shifting of means in yield has been reported by Gregory (1956), Rawlings et al., (1958) and Gaul (1961) the increase in seed yield from 34.50 g the control to 36.18 g in the mutants (10 kR) exhibited the contributing effect of small mutation attributes which resulted in yield increase this is evident from the fact that positive contribution by the beneficial mutagen observed in the traits BB10M132, BB10M149, BB10M122, harvested in yield increase beneficial mutations at lower doses of gamma rays in a common occurrences as this may induce point mutations Effect of gamma rays on PCV and GCV Micro mutational events with the least deleterious effects were considered to be the most reliable and effective mutation in providing variability for quantitative characters and such approach has been successfully demonstrated by Gregory (1960) in peanut and Rawlings et al., (1958) in soybean Aastvent (1968) and Scossiroli (1966) suggested that an estimation of the extent of induced genetic variability for quantitative traits in M2 would provide valuable information for designing a selection programme Information on genotypic variance would helps to measure the range of genetic diversity among the progenitor available for characters and provides a means to compare the genetic variability in parameter has been used to compare the variability arising out of induced mutagenesis The present investigations in butter bean revealed that the genotypic variance was higher in the treated populations, offering scope for effective selection In the present study higher genotypic coefficient of variation for number of pods per plant, seed yield per plant was observed that mean of all the three treatment These characters indicated that the high variability which can be exploited for further improvement through selection These results are in conformity with the findings of Choulwar and Borikar (1985), Murugan and Subramanian (1993) in cowpea and Khan (1981) in mung bean Table.1 Effect of mutagenic treatments on mean, measures of dispersion and variability parameters of seed yield (g)/ plant in M2 generation S.No Treatment Minimum Maximum Mean kR 10kR 15 kR 34.1 35.5 30.1 36.7 36.54 33.12 35.45 36.18 33.12 1169 Control mean 34.50 34.50 34.50 PCV GCV (%) (%) 1.52 3.36 0.59 1.47 3.33 0.46 h2 (%) GA 94.0 0.70 98.4 0.74 61.6 0.46 GA as per cent of mean 1.99 12.38 1.28 Int.J.Curr.Microbiol.App.Sci (2017) 6(5): 1167-1172 Table.2 Effect of mutagenic treatments on mean, measures of dispersion and variability parameters of Number of seeds/ pod in M2 generation Control mean S.No Treatment Minimum Maximum Mean kR 10kR 15 kR 5.00 6.00 4.00 7.00 8.00 7.00 5.82 7.06 5.04 Effect of gamma rays on heritability and GA as percentage of mean Though the genotypic coefficient of variation reveals extent of variability present in the genotypes for the various characters, it does not indicate the variation to be heritable The 5.66 5.66 5.66 PCV (%) GCV (%) h2 (%) GA 11.75 7.48 26.4 0.46 16.34 12.41 40.6 0.61 10.19 10.01 35.0 0.36 GA as per cent of mean 9.08 10.43 0.86 heritability estimates help to assess the heritable portion of variation and the selection would be more effective, if the estimates of heritability are high High heritability indicates genetic nature of induced mutations (Scossiroli, 1966) Estimation of GA as percentage of mean would show the extent of 1170 Int.J.Curr.Microbiol.App.Sci (2017) 6(5): 1167-1172 genetic gain that could be expected when the population is subjected to selection (Burton, 1952 and Johnson and Webber 1965) As heritability in broad sense includes additive and epistatic gene effects, it could be reliable only if the heritability is accompanied by high GA as percentage of mean (Ramanujam and Thirumalachar, 1967) Among the characters evaluated in the present investigation, high heritability and high GA as percentage of mean were obtained for number of flowers per cluster, pod girth, seed yield, number of seeds per pods, 100 seed weight and individual pod weight These characters having high heritability and GA as per cent of mean showed additive gene effect and may be selected for further generation These results are in conformity with the findings of Choulwar and Borikar (1986), Thirugnanakumar (1986) and Rangaswamy (1989) in cowpea and Lokesha and Veeresh (1993) in rice bean Among the characters evaluated in the present investigation, high PCV, High GCV, high heritability and high GA as parentage of mean were obtained for plant, number of pods number of seeds yield per pods These characters are more amenable for selection while forwarding to M3 generation The phenotypic and genotypic coefficient of variation, heritability (with a very few exceptions) and genetic advance increased in the varieties after the mutagenic treatments The increase in the phenotypic coefficient of variation and the genetic parameters was higher with 10 kR Gamma rays Treatment in the var KKL-1 butter bean The vital role of mutagens in inducing both micro and macro mutations in several crops is well established and hence mutation breeding is gaining considerable range of interest Success in selecting a desirable plant type depends upon the genetic variability in the base population, and mutation breeding offers the unique possibility of creation of new germplasm for crop improvement (Brock, 1977; Konzak, 1987) References Aastvent, K 1968 Effect of combinations of mutagen on mutation frequency in barley Mutation in Plant Breeding II (roc Panel, Vienna 1967) IAEA, Vienna 5-14 Brock, R.D 1977 Prospects and perspectives in mutation breeding In: Genetic Division in Plants Planum Publishing Corporation, New York Choulwar, S.B and S.T Borikar 1985 Variability studies for polygenic traits in M3 generation of cowpea, J Maharashtra Agric Univ., 10(2): 198199 Choulwar, S.B and S.T Borikar 1986 Induced genetic variability in cowpea, J Maharashtra Agric Univ., 11(2): 225-266 Gaul, H 1961 Use of induced mutations in seed propagation species in Mutation in plant breeding Nat Res Council publ., Washington, 891: 206-261 Gregory, W.C 1956 Induction of useful mutations in the peanut Genetics and plant breeding Brook haven Biological symposium, 9: 177-179 Gregory W.C 1960 The peanut NC4, a milestone in crop breeding, Crop Sci., 12: 12-13 Khan, I.A 1981 Induced mutations in mungbean, Mysore J Agric Sci., 15(3): 225-231 Konzak, C.F 1987 Mutation and Mutation In; Wheat and Wheat improvement Edited by E.G Hayne (American Society of Agronomy) Madison W.I; 428-443 Lokesha, R and Veeresh 1993 Induced mutagenesis and genetic improvement 1171 Int.J.Curr.Microbiol.App.Sci (2017) 6(5): 1167-1172 of ricebean (Vigna umbellate Thumb) Legume Res., 16(1): 37-40 Murugan, S and M Subaramanian 1993 Variability studies for polygenic traits in M3 and M4 generation of cowpea Curr Sci., 42: 294-299 Ramanujam, S and D.K Thirumalachar 1967 Genetic variability of certain characters in red pepper (Capsicum annum L.) Mysore J Agric Sci., 1: 3036 Rangswamy, K 1989 Investigation on induced mutagenesis in homozygous and heterozygous genetype of cowpea (Vigna ungiculata (L) Walp) M.Sc thesis Tamil Nadu Agric Univ., Coimbatore Scossiroli, R.E 1966 Wheat mutagenesis in quantitative traits (Proc 2nd Int Wheat Genetic Symp Lund (1963) Herediatas, 2(1): 85-101 Thirugnanakumar, S 1986 Studies on induced mutagenesis in cowpea M.Sc., thesis Tamil Nadu Agric Univ., Coimbatore How to cite this article: Suresh, D., S Poonguzhali, A Kaviarasu, S Abdul Rahuman, S Rajangam and John Joel, J 2017 Increased Genetic Variability for Total Plant Yield and Seeds per Pod in M2 Generation of Butter Bean (Phaseolus lunatus L) Variety KKL-1 Int.J.Curr.Microbiol.App.Sci 6(5): 1167-1172 doi: https://doi.org/10.20546/ijcmas.2017.605.127 1172 ... Rahuman, S Rajangam and John Joel, J 2017 Increased Genetic Variability for Total Plant Yield and Seeds per Pod in M2 Generation of Butter Bean (Phaseolus lunatus L) Variety KKL-1 Int.J.Curr.Microbiol.App.Sci... number of seeds pod at kR and control were on par and the number of pod per plant at 10 kR, kR and 15 kR was on part The increase in pod yield in M2 generation in mean values in the M2 generation indicates... (Tables and 2) Yield attributing characters Seed yield per plant the plants exposed 10 kR and kR gamma rays recorded significant increase in seed yield per plant in KKL-1 butter bean, the seed yield